Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.
TRIM, VERTICAL BEAM ASSEMBLY AND SHELVING SYSTEM
Field of the Invention
The present application relates to an item storage assembly, and in particular
to a trim,
a vertical beam assembly using the trim, and a shelving system.
Description of the Prior art
At present, in the warehousing field, item storage assemblies are usually used
to store
items to improve space utilization. Common item storage assemblies are usually
frame structures composed of horizontal beams and vertical beams, and
suspension
elements such as brackets and baskets are connected to the vertical beams. A
common
vertical beam is shown in FIG. 1, of which the cross-section is generally U-
shaped,
comprising a front panel and first and second side surfaces that are
interconnected
with the front panel, the first and second side surfaces being oppositely
provided. A
plurality of slotted holes are provided on the front panel for connecting the
suspension
elements. In order to enhance the strengths of the item storage assemblies,
the vertical
beams and the suspension elements are usually made of metal. In the process of
installing the suspension elements, the noise between the suspension elements
and the
vertical beams due to collision and friction will cause discomfort to users.
In addition,
in order to expand the applicable scope of the vertical beam, there are
usually a large
number of slotted holes arranged on the front panel of the vertical beam to
adapt to
different installation heights. Generally, only a small number of slotted
holes are used
to install the suspension elements, and the remaining slotted holes are in a
vacant state,
which affects the overall aesthetics of the item storage assembly.
Therefore, those skilled in the art devote themselves to developing a trim
that can be
covered on a vertical beam to suppress the noise caused by contact and
collision
between a suspension element and the vertical beam, and to shield slotted
holes on the
vertical beam to improve the aesthetics.
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CA 03207478 2023- 8- 3
Summary of the Invention
In order to achieve the above objectives, the present application provides a
trim for
being covered on a vertical beam, wherein the trim is matched with the shape
of the
vertical beam, and the trim is configured such that when the trim is covered
on the
vertical beam, a force is generated between the trim and the vertical beam,
the trim is
fixed on the vertical beam with the force and the trim is covered on at least
part of the
surface of the vertical beam.
In some embodiments, optionally, the trim is an injection molded piece
containing
magnetic powders.
In some embodiments, optionally, the trim comprises a body, wherein the body
is in a
long strip shape, the shape of the body is matched with a front panel, with
slotted
holes, of the vertical beam, and the body is configured to be covered on the
front
panel of the vertical beam.
In some embodiments, optionally, the body comprises a first surface and a
second
surface that are oppositely provided, the width of the first surface is
greater than the
width of the second surface, and the first surface is configured to be in
contact with
the front panel of the vertical beam.
In some embodiments, optionally, the trim further comprises at least one wing
edge,
one of the at least one wing edge is provided on one side of the body along
the length
direction of the body, the wing edge is connected to the body through a first
connecting portion, and the wing edge is configured to be able to rotate
around the
first connecting portion relative to the body.
In some embodiments, optionally, the trim has an unfolded state and a folded
state, in
the unfolded state, the wing edge is flush with the body; in the folded state,
the wing
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edge and the body form an angle, and the wing edge is configured to be covered
on a
side surface of the vertical beam.
In some embodiments, optionally, the first connecting portion is V-shaped, and
the
thickness of the first connecting portion is less than the thickness of the
body and the
thickness of the wing edge.
In some embodiments, optionally, the at least one wing edge comprises a first
wing
edge and a second wing edge, and the first wing edge and the second wing edge
are
respectively located on two opposite sides of the body along the length
direction.
In some embodiments, optionally, the trim further comprises a first side edge
and a
second side edge, the first side edge and the second side edge are
respectively
connected to two opposite sides of the body along its length direction, and
the first
side edge and the second side edge are respectively connected to the body
through
second connecting portions.
In some embodiments, optionally, the second connecting portions are in arc
shapes.
In some embodiments, optionally, the trim is provided with at least one first
tear line,
the first tear line is perpendicular to the length direction of the trim, and
the trim is
configured to be able to be broken along the first tear line under the action
of an
external force.
In some embodiments, optionally, the trim is provided with at least one second
tear
line, the second tear line is parallel to the length direction of the trim,
and the trim is
configured to be able to be broken along the second tear line under the action
of an
external force.
In some embodiments, optionally, at least part of the trim is made of a
magnetic
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CA 03207478 2023- 8- 3
material.
In some embodiments, optionally, the trim is provided with a plurality of
magnetic
portions, and the magnetic portions are made of magnetic materials.
In some embodiments, optionally, the trim has elasticity, and the trim is
configured to
be deformed when it comes into contact with the vertical beam, thereby
generating an
elastic force, and the elastic force causes the trim to be clamped on the
vertical beam.
In some embodiments, optionally, the trim comprises a body, a first side edge
and a
second side edge, wherein the first side edge and the second side edge are
respectively
connected to two opposite sides of the body along its length direction, and
the first
side edge and the second side edge are configured such that the spacing
between the
two side edges changes under the action of an external force, and the spacing
between
the two side edges returns to an original state when the external force
disappears.
In some embodiments, optionally, the trim is flexible, and the trim is
configured to be
able to be rolled up to form a cylinder.
The present application also provides a vertical beam assembly, comprising:
a vertical beam which comprises a front panel and two side surfaces, wherein
the two
side surfaces are respectively located on two opposite sides of the front
panel along its
length direction, such that the cross-section of the vertical beam is U-
shaped; and
a trim which is covered on at least part of the surface of the vertical beam,
wherein the
trim is configured such that by using a force generated by contact between the
trim
and the vertical beam, the trim is fixed on the vertical beam.
In some embodiments, optionally, at least part of the trim is made of a
magnetic
material.
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In some embodiments, optionally, the trim has elasticity, and the trim is
configured to
be deformed when it comes into contact with the vertical beam, thereby
generating an
elastic force, and the elastic force causes the trim to be clamped on the
vertical beam.
The present application also provides a shelving system, comprising:
a horizontal beam;
a vertical beam which is connected to the horizontal beam; and
a trim which is covered on at least part of the surface of the vertical beam,
wherein at
least part of the trim contains a magnetic material, such that the trim is
fixed on the
vertical beam by a magnetic force generated by contact between the trim and
the
vertical beam.
Compared with the prior art, the beneficial effects of the technical solutions
of the
present application are as follows:
1. A trim is fixed on a vertical beam by a force generated by its contact with
the
vertical beam. For example, the trim is made of a material containing magnetic
components, and when it comes into contact with the vertical beam, a magnetic
force
is generated, such that the trim is attracted to the vertical beam; or the
trim has
elasticity, and when the trim comes into contact with the vertical beam, the
trim is
deformed to generate an elastic force, and the trim is clamped on the vertical
beam by
the elastic force. The connection mode between the trim and the vertical beam
is very
convenient for installation and disassembly.
2. The trim is covered on the vertical beam, which can reduce the noise caused
by
contact and collision between a suspension element and the vertical beam, and
avoid
causing discomfort to users.
3. The trim shields slotted holes on the vertical beams, which improves the
overall
aesthetics of the vertical beam.
4. The trim can be made of a flexible material, thus being convenient for
being rolled
up, and convenient for storage and transportation.
CA 03207478 2023- 8- 3
Brief Description of the Drawings
FIG. 1 is a structural view of a vertical beam in the prior art;
FIG. 2 is a schematic exploded view of a trim and a vertical beam in
Embodiment 1;
FIG. 3 is a schematic installation view of a trim and a vertical beam in
Embodiment 1;
FIG. 4 is a schematic structural view of another trim in Embodiment 1;
FIG. 5 is a schematic cross-section view of the trim shown in FIG. 4;
FIG. 6 is a schematic cross-section view of the trim shown in FIG. 4 installed
on a
vertical beam; FIG. 7 is a schematic view of a first tear line and a second
tear line;
FIG. 8 is a schematic view of a trim after being rolled up;
FIG. 9 is a schematic exploded view of a trim and a vertical beam in
Embodiment 2;
FIG. 10 is a schematic cross-section view of a trim in an unfolded state in
Embodiment 2;
FIG. 11 is a schematic structural view of a trim installed on a vertical beam
in
Embodiment 2;
FIG. 12 is a schematic cross-section view of FIG. 10;
FIG. 13 is a schematic cross-section view of a trim in Embodiment 3;
FIG. 14 is a schematic cross-section view of a trim installed on a vertical
beam in
Embodiment 3;
FIG. 15 is a schematic view of a trim including magnetic portions in
Embodiment 4;
FIG. 16 is a schematic view of a trim comprising a suction component in
Embodiment
5;
FIG. 17 is a schematic elastic force view in Embodiment 6;
FIG. 18 is a schematic structural view of a shelving system; and
FIG. 19 is a partial enlarged view of the shelving system of FIG. 18.
100 - vertical beam, 101 - front panel, 102 - first side surface, 103 - second
side
surface, 104 - slotted hole, 200 - trim, 201 - body, 202 - first surface, 203 -
second
surface, 204 - rounded corner, 205 - first tear line, 206 - second tear line,
207 - wing
edge, 208 - first connecting portion, 209 - first side edge, 210 - second side
edge, 211
- second connecting portion, 212 - magnetic portion, 213 - suction component.
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Detailed Description of the Preferred Embodiments
Hereinafter, preferred embodiments of the present application will be
introduced with
reference to the drawings attached to the specification, so that the technical
content
will be clearer and easier to understand. The present application can be
embodied in
many different forms of embodiments, and the scope of protection of the
present
application is not limited to the embodiments mentioned herein.
Hereinafter, the concept, specific structure and technical effects of the
present
application will be further illustrated, so as to fully understand the
purposes, features
and effects of the present application, but the protection of the present
invention is not
limited thereto.
As shown in FIG. 1, a vertical beam 100 commonly used in the prior art is
shown.
The vertical beam 100 is in a long strip shape as a whole and is generally
vertically
provided. When the vertical beam 100 is vertically provided, the length
direction of
the vertical beam is defined as an up-down direction or a vertical direction,
and the
horizontal direction perpendicular to the length direction of the vertical
beam 100 is a
transverse direction. The vertical beam 100 comprises a front panel 101, and a
first
side surface 102 and a second side surface 103 that are interconnected with
the front
panel 101, and the first side surface and the second side surface are
oppositely
provided, such that the cross-section of the vertical beam 100 is
substantially
U-shaped. A plurality of slotted holes 104 are provided on the front panel 101
of the
vertical beam 100. These slotted holes 104 can be arranged side by side in two
rows
along the length direction of the vertical beam 100, or they can be arranged
in a
staggered manner along the length direction of the vertical beam 100, or any
arrangement in the prior art is used. These slotted holes 104 are used to
connect
suspension elements such as brackets and baskets. The suspension elements can
be
connected to the vertical beam 100 in any known manner. For example, the
suspension elements can be fixed to the slotted holes 104 by fasteners, or can
be hung
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on the slotted holes 104 by providing hooks on the suspension elements. It
should be
understood that the vertical beam 100 shown in FIG. 1 is only an example
applicable
to the present application, and its specific structure does not constitute a
limitation to
the present application, and other existing vertical beam structures in the
prior art can
also be applied to the technical solutions of the present application.
After a user finishes installing the shelving system, unused slotted holes 104
on the
vertical beam 100 will be exposed. The present application provides a trim
200, and
the user can select a desired trim 200 according to the size of the exposed
slotted
holes 104, so as to shield the exposed slotted holes 104. By doing so, the
aesthetics of
the product may be increased. In addition, if the slotted holes 104 are not
shielded,
other items may enter the vertical beam 100 through the slotted holes 104. In
particular, some items may be hooked on the vertical beam 100, which will
destroy
the whole shelving system when the items are pulled. By providing the trim 200
to
shield the unused slotted holes 104, the above situation can be avoided.
Embodiment 1
As shown in FIG. 2, a trim 200 provided in the present application comprises a
body
201. The body 201 is in a long strip shape as a whole and can be covered on a
front
panel 101 of the vertical beam 100. The trim 200 may be an injection molded
piece
containing a magnetic material. Specifically, during a manufacturing process,
a
magnetic material is added to raw materials for injection molding, and the
magnetic
material may be selected as magnetic powders. When the trim 200 comes into
contact
with the vertical beam 100, a magnetic force is generated between the trim 200
and
the vertical beam 100, so that the trim 200 is attracted to the vertical beam
100. The
trim 200 made of a magnetic material is convenient for installation and
disassembly.
As shown in FIG. 3, the width of the body 201 of the trim 200 may be
substantially
equal to the width of the front panel 101 of the vertical beam 100, or the
width of the
body 201 of the trim 200 is slightly less than the width of the front panel
101, but the
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CA 03207478 2023- 8- 3
width of the body 201 is sufficient to enable the body 201 to shield slotted
holes 104.
The width here refers to the size of the trim 200 and the vertical beam 100 in
the
transverse direction, and the width referred to below has the same meaning as
the
width here. The trim 200 is covered on the front panel 101 of the vertical
beam 100,
and can be substantially as wide as the front panel 101 of the vertical beam
100,
thereby shielding the front panel 101.
In some embodiments, as shown in FIG. 4, the body 201 of the trim 200 has a
first
surface 202 and a second surface 203, and the first surface 202 and the second
surface
203 are oppositely provided. As shown in FIG. 6, the first surface 202 is used
to be
contacted with the front panel 101 of the vertical beam 100. The width of the
first
surface 202 is substantially the same as the width of the front panel 101, or
the width
of the first surface 202 is less than the width of the front panel 101 but
sufficient to
enable the first surface 202 to shield the slotted holes 104. The second
surface 203 is
an exposed surface of the trim 200 after being covered on the front panel 101.
Preferably, as shown in FIG. 5, the width of the second surface 203 may be
slightly
less than the width of the first surface 202. The transition between the
second surface
203 and the first surface 202 may be implemented by means of a chamfered
corner, a
rounded corner 204, or the like. Therefore, the cross-section of the body 201
is
substantially trapezoidal. In this way, there will be no sharp edge and corner
that may
hurt people, the aesthetics of the product is also increased, and the material
of the trim
200 may be saved as well.
The length of the trim 200 can be set according to an actual need, which does
not
constitute a limitation to the present application.
The trim 200 may be made of a soft material. In an unused state, as shown in
FIG. 8,
the trim 200 may be rolled up to form a cylinder, so as to save space and
facilitate
storage and transportation.
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In some embodiments, as shown in FIG. 7, at least one first tear line 205 may
be
arranged along the length direction of the trim 200, so that the trim 200 may
be
broken along the first tear line 205 to obtain trims 200 of different lengths,
thus
enabling the trim 200 to be suitable for a variety of scenarios with different
size
requirements. In some embodiments, at least one second tear line 206 may be
arranged along the width direction of the trim 200, and the trim 200 may be
broken
along the second tear line 206 to obtain trims 200 of different widths. In
some
embodiments, the first tear line 205 and the second tear line 206 may be
provided at
the same time. The first tear line 205 and the second tear line 206 may be
provided on
the first surface 202 or the second surface 203 of the body 201.
The tear line is conducive for a user to conveniently break the trim, and the
flatness of
a fracture can be ensured without additional tools. The tear line may also be
marked
with size specifications, which is helpful for the user to perform cutting
according to
an actual need.
Embodiment 2
As shown in FIG. 9, compared with Embodiment 1, a trim 200 in this embodiment
is
based on the trim 200 of Embodiment 1, and a wing edge 207 is provided on at
least
one side of the body 201 of the trim 200 along the length direction.
Specifically, in
this embodiment, the trim 200 is in a long strip shape and comprises a body
201 and
at least one wing edge 207. The shape of the body 201 is the same as that in
Embodiment 1, and will not be repeated here. As shown in FIG. 10, a wing edge
207
is connected to one side of the body 201 along the length direction of the
body 201, a
first connecting portion 208 is provided between the wing edge 207 and the
body 201,
and the wing edge 207 is able to rotate around the first connecting portion
208 relative
to the body 201.
The wing edge 207 and the body 201 may be integrally formed. An extrusion
molding
process is used to facilitate formation of the shape of the first connecting
portion 208,
CA 03207478 2023- 8- 3
and the shape of the first connecting portion 208 may be conveniently
configured
according to a need, so that the first connecting portion, after being folded,
forms
different angles, so as to adapt to vertical beams of different shapes.
The first connecting portion 208 is V-shaped with an opening end facing a
vertical
beam 100 and a top end being away from the vertical beam 100, so that when the
wing edge 207 is unfolded, the surface of the wing edge 207 away from the
vertical
beam 100 and the second surface of the body 201 may form a plane. With regard
to
the V-shape of the first connecting portion 208, an angle is formed at the top
end, and
different angle magnitudes make angles of different magnitudes formed between
the
body 201 and the wing edge 207 after being folded, so as to adapt to vertical
beams of
different shapes. The magnitude of the angle may be set according to an actual
need,
and its specific value does not constitute a limitation to the present
application.
Similar to Embodiment 1, the trim 200 in Embodiment 2 may be an injection
molded
piece containing a magnetic material. The length of the trim may be set
according to
an actual need, or a plurality of first tear lines 205 may be arranged along
the length
direction. The trim 200 may be made of a soft material, which is convenient
for being
rolled up and convenient for transportation and storage. At the same time, at
least one
second tear line 206 may be provided on the wing edge 207 to adjust the width
of the
wing edge 207.
In this embodiment, the wing edge 207 has two states: an unfolded state and a
folded
state. In the unfolded state, the wing edge 207 is flush with the body 201,
that is, the
wing edge 207 and the body 201 are in the same plane; and in the folded state,
the
wing edge 207 and the body 201 form an angle.
By providing at least one wing edge 207, the applicable scope of the width of
the trim
200 is expanded. For example, as shown in FIGS. 11 and 12, when the width of a
front panel 101 of the vertical beam 100 is the same as the width of the body
201, the
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CA 03207478 2023- 8- 3
body 201 may be covered on the front panel 101 of the vertical beam 100, and
then
the wing edge 207 is rotated toward a side surface of the vertical beam 100,
that is,
the wing edge 207 is in a folded state, such that the wing edge 207 is covered
on the
side surface of the vertical beam 100. When the width of the front panel 101
of the
vertical beam 100 is greater than the width of the body 201, the wing edge 207
may
be rotated to the same plane as the body 201, that is, the wing edge 207 is in
an
unfolded state, such that the trim 200 is covered on the front panel 101 of
the vertical
beam 100. The vertical beam 100 of the wing edge 207 may be set to one or two.
The
width of the wing edge 207 may be equal to or less than the width of the first
side
surface 102 or the second side surface 103 of the vertical beam 100.
In addition, when the wing edge 207 is covered on the side surface of the
vertical
beam 100, the magnetic force between the trim 200 and the vertical beam 100
may
also be increased, thereby improving the connection strength of the trim 200.
The design of one or two wing edges 207 may effectively prevent the trim 200
from
moving transversely on the vertical beam 100.
Embodiment 3
As shown in FIG. 13, compared with Embodiment 1, a trim 200 in this embodiment
is
based on the trim 200 in Embodiment 1. The body 201 of the trim 200 is
provided
with two side edges along the length direction, that is, a first side edge 209
and a
second side edge 210, wherein the first side edge 209 and the second side edge
210
respectively form an angle with the body 201. Preferably, the first side edge
209 and
the second side edge 210 are perpendicular to the body 201, such that the
cross-section of the trim 200 is substantially U-shaped. Second connecting
portions
211 between the two side edges and the body 201 may be provided in arc shapes.
Other technical features in Embodiment 1, for example, the structure of the
body 201,
being made of a magnetic material, being made of a soft material, having a
first tear
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line 205 and a second tear line 206, etc., may all be applied to this
embodiment.
As shown in FIG. 14, when the trim 200 in this embodiment is in use, the body
201 is
still covered on a front panel 101 of a vertical beam 100, and the two side
edges are
covered on a first side surface 102 and a second side surface 103 of the
vertical beam
100, respectively. Specifically, after a user finishes installing a shelving
system,
unused slotted holes 104 on the vertical beam 100 will be exposed. The user
may
select a desired trim 200 according to the size of the exposed slotted holes
104 to
shield the exposed slotted holes 104. By doing so, the aesthetics of the
product may
be increased. At the same time, a situation that other items are inserted into
the
vertical beam 100 and are hooked on the vertical beam 100 can be avoided.
Embodiment 4
In Embodiments 1, 2 and 3, the trim 200 is an injection molded piece
containing a
magnetic material. Compared with Embodiments 1, 2 and 3, as shown in FIG. 15,
a
trim 200 in this embodiment can be made of other suitable soft materials as a
whole,
and then a plurality of magnetic portions 212 made of magnetic materials are
provided on the trim 200. The trim 200 is attracted to the vertical beam 100
by using
the magnetic portions 212. The magnetic portions 212 may be uniformly arranged
on
the trim 200, or a plurality of magnetic portions 212 may be concentratedly
provided
on a part where the force is concentratedly received. The magnetic portions
212 are
fixed on the trim 200 so as to be integrated with the trim 200.
It should be understood that the structure of the trim 200 in Embodiment 4 may
be the
structure in any of Embodiments 1, 2, and 3. The only difference lies in the
different
materials used in the whole trim 200 and the addition of the magnetic portions
212.
Embodiment 5
As shown in FIG. 16, the difference between this embodiment and Embodiment 4
is
that the magnetic portions 212 is replaced by suction components. When the
suction
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CA 03207478 2023- 8- 3
components come into contact with the vertical beam 100, the suction
components are
pressed to squeeze out the air, thereby forming a negative pressure to fix the
trim 200
on the vertical beam 100. The suction components may be uniformly arranged on
the
trim 200, or a plurality of suction components 213 may be concentratedly
provided on
a part where the force is concentratedly received, and the suction components
213
may be suction cups. However, it should be noted that when the suction
components
213 are provided on the trim 200, pay attention to avoid positions
corresponding to
the slotted holes 104 of the vertical beam 100. The magnetic portions 212 are
fixed on
the trim 200 so as to be integrated with the trim 200.
It should be understood that the structure of the trim 200 in Embodiment 5 may
be the
structure in any of Embodiments 1, 2, and 3. The trim 200 in Embodiment 5 may
also
be made of a magnetic material, and then the suction components 213 are
provided, so
that the force between the trim 200 and the vertical beam 100 may be further
enhanced to improve the connection strength between the two. Alternatively,
the
magnetic portions 212 may be further provided on the trim 200 in Embodiment 5,
such that the magnetic portions 212 and the suction components 213 exist
simultaneously.
Embodiment 6
This embodiment is improved on the basis of Embodiment 3, that is, a trim 200
in this
embodiment is substantially the same as the structure of the trim 200 in
Embodiment
3, both of which have a body 201 and two side edges. The difference is that
the trim
200 in Embodiment 6 has elasticity, that is, the spacing between the two side
edges
will change under the action of an external force, and when the external force
disappears, the two side edges will return to an original state. The spacing
between the
two side edges in the original state is less than the width of the vertical
beam 100.
When the trim 200 is being installed, the two side edges are spread apart,
then the
vertical beam 100 is sleeved with the trim, and then the external force is
released such
that the trim 200 is deformed. As shown in FIG. 17, elastic forces F are
generated.
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The elastic forces F cause the two side edges to move toward the vertical beam
100
respectively, so that the elastic forces F are used to clamp the trim 200 on
the vertical
beam 100.
In this embodiment, the whole trim 200 may be made of a magnetic material, and
the
trim 200 has elasticity, thereby generating magnetic forces and clamping
forces,
which further improves the connection strength between the trim 200 and the
vertical
beam 100. It may also be made of a non-magnetic material, and the trim 200 has
elasticity, thereby generating clamping forces. It is also possible to provide
magnetic
portions 212 and/or suction components on the trim 200.
Embodiment 7
As shown in FIGS. 18 and 19, in this embodiment, a shelving system is
provided,
which comprises a horizontal beam 300, a vertical beam 100, and a trim 200.
The horizontal beam 300 is generally used to be connected to a vertical
surface, to
play a role of fixing the whole shelving system.
The vertical beam 100 is connected to the horizontal beam 300 and may be fixed
on
the horizontal beam 300 by fasteners. Suspension elements may be provided on
the
vertical beam 100.
The trim 200 is covered on at least part of the surface of the vertical beam
100. The
trim 200 may be a trim with any structure in Embodiments 1-6. Preferably, in
this
embodiment, the trim 200 is made of a magnetic material and is attracted to
the
vertical beam 100 by magnetic forces.
The preferred embodiments of the present application are described in detail
above. It
should be understood that those of ordinary skills in the art may make many
modifications and changes according to the concept of the present application
without
CA 03207478 2023- 8- 3
creative work. Therefore, all technical solutions that can be obtained by
those skilled
in the art through logical analysis, reasoning or limited experiments based on
the
concept of the present application and the prior art should fall within the
scope of
protection defined by the claims.
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